Vortex formation mechanisms in the wake behind a sphere for 200 < Re < 380 |
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Authors: | V A Gushchin RV Matyushin |
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Institution: | (1) Laboratoire d’?tudes A?rodynamiques (UMR 6609-CNRS), Boulevard Marie et Pierre Curie T?l?port 2, B.P. 30179, 86960 Futuroscope poitiers Cedex, France; |
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Abstract: | Direct numerical simulation and visualization of three-dimensional separated flows of a homogeneous incompressible viscous fluid are used to comprehensively describe different mechanisms of vortex formation behind a sphere at moderate Reynolds numbers (200 ≤ Re ≤ 380). For 200 < Re ≤ 270 a steady-state rectilinear double-filament wake is formed, while for Re > 270 it is a chain of vortex loops. The three unsteady periodic flow patterns corresponding to the 270 < Re ≤ 290, 290 < Re ≤ 320, and 320 < Re ≤ 380 ranges are characterized by different vortex formation mechanisms. Direct numerical simulation is based on the Meranzh (SMIF) method of splitting in physical factors with an explicit hybrid finite-difference scheme which possesses the following properties: secondorder approximation in the spatial variables, minimal scheme viscosity and dispersion, and monotonicity. Two different vortex identification techniques are used for visualizing the vortex structures within the wake. |
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Keywords: | incompressible viscous fluid sphere vortex formation mechanisms wake numerical simulation visualization |
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